Gauging device



vFeb 27, 1945- w. F. ALLER ETAL GAUG-ING DEVI CE Filed July 5, 1942 5 Sheets-Sheet l Feb. 27, 1945. W F, ALLER ETAL 2,370,220

GAUGING DEVICE Y Filed July 3, 1942 5 sheets-sheet 2 l l I 3mm/Mofas a@ M J. my

Feb. Z7, 1945.

w. F. ALLER ET Al. 2,370,220

GAUGING DEVICE Filed July s, 1942 5 Sheets-Shee't 3 v Feb. 27, 1945. w ALLER E-rAL 2,370,220

v GAUGING DEVICE Filed July I5, 1942 V5 `Sheets-Sheet 4 INVENTORS W5? @l2/w+ BY manwf Feb. 27, 1945. w. F. ALLER ErAL Patented -Feb. 27, 1945 GAUGING DEVICE Willis Fay Aller and Lo Ohio, assignors to uis J. Mahlmeister, Dayton, The Sheeld Corporation,

Dayton, Ohio, a corporation of Ohio' y Application-July 3, 1942, Serial No. 449,568

8 Claims.

This invention relates to measuring or gauging apparatus for accurately gauging sizes of a measured part.

One object of the invention is the provision of a gauging apparatus for simultaneously gauging or comparing a number of dimensions of a workpiece, and embodying a. plurality of gauge devices under the control of a common work contacting member which simultaneously contacts with and is operated by two different surfaces of the workipece.

Another object of the invention is the provision of a gauging apparatus for simultaneously gauging or comparing a number of dimensions l of a workpiece, of a workpiece, may be gauged wherein one or more dimensions when applied to a, work holder, or compared, and another dimension or dimensionsare gauged or compared i when the work holder, with the work, is moved into gauging position to bring the work into cooperative engagement with devices.

Another-object oi the` invention is the provision of a gauging apparatus embodying a mov.- able work holder provided with a plug portion that engages the work, if the work is of a desired size, and arranges the work in a predetermined position on the work holder which is then movable to bring the work into cooperative engagement with an additional gauging device or devices to gauge or measure other dimensions. Another object of the invention is the provision of a, gauging apparatus adapted to simultaneously gauge or compare a large number of different dimensions radially and axially of a work piece, with the various work contacting and gauging parts compactly arranged.

Another object is the provision of a gauging apparatus including a work holder, for positioning the work, and arranged for movement from a Work receiving to a, work gauging position, there being provision to prevent movement of the work into such gauging position when the work is not properly positioned on the holder, thus preventing injury to the work gauging ngers and the parts controlled thereby. Another object is the provision of a gauging apparatus including a support on which a gauging device or devices are arranged, and a work holder for receiving the work and for moving the work into gauging position, the work holder being operable by a mechanism which inherently functions to gradually decelerate the motion of the work holder in moving into gauging position additional gauging so that the final movement of the work holder is accomplished without shock or jar.

Another object is the provision of a gauging apparatus of the character just mentioned in which the work holder is moved by a toggle linkage that gradually decelerates the movement of the work holder, with cooperating stop means adjustable to accurately determine the final position of the work in gauging position.

Another object is the provision of a gauging apparatus including a work holder on which the Work is positioned and which also carries work gauging devices for measuring the internal diameter and an axial measurement of the work, and which further incorporates a plug portion adapted to enter a passage in the work if the passage is suiiiciently large, and positioning the work on the holder in a predetermined position.

Another object of the invention is the provision of a gauging apparatus having a pair of opposed workcontacting members adapted for cooperative simultaneous engagement with a surface to be gauged and both movable in one direction in the gauging operation to gauge a measurement in such direction, at least one vof such members being carried for movement in another direction 'and operating a second gauging device in accordance with another surfaceof the work. i

Another object of the invention is a provision of a gauging apparatus of the character just mentioned in which the member that controls a plurality of diierent gauging devices in accordance with different surfaces of the workpiece is supported by diierent groups of parallel spring blades some of which provide substantially rectilinear movement `of a, Work contacting memberv and a gauging device in one direction and others provide substantially rectilinear movement of the same member in another direction substantially at 90 to the rst.

Other objects and advantages of the invention will be apparent from the following description, the appended claims and the accompanying drawings.

In the drawings, in which the same reference characters have been applied to like parts in the several views:

Fig. l is a front elevation, with .some parts shown in vertical section, of a gauging apparatus embodying the present invention;

- Fig. 2 is a side elevation, partly in vertical section, on the line- 2-2Uof Fig. 1, of the gauging apparatus;

-tion shown in Figs. 2. and 3,

Fig. 3 is a horizontal section on the line 3-3 of Fig. 1;

Fig. 4 is a horizontal section on the line 4--4 of Fig. 1;

Fig. 5 is a horizontal section on the line 5-5 of Fig. 1;

Fig. 6 is a vertical section on the line 6-6 of Fig. 3;

lower portion of a workpiece, showing itsl cooperative association with a number of the work contacting portions of the gauging apparatus.

Referring more particularly to the drawings, in which a preferred form of the invention has been shown as embodied in a gauging apparatus for simultaneously gauging or comparing a large numberA of dimensions of a shell or other Workpiece the gauging. apparatus comprises a suit"- able support III which projects upwardly from a stationary base II. A number of gauging devices are arranged on the support, as will be more fully described, for cooperation with the workpiece when the latter is moved into gauging position. It will be understood that the workpiece may take any one of a large number of different shapes or forms, although the invention as herein described and illustrated in a form particularly adapted for gauging internal and external measurements of anI elongated' workpiece such as a shell. While the term shell will be used in the speclcation to designate the workpiece, that term designates any other workpiece that may be gauged or measured. 0

The shell, designated I2, maybe applied to a holder I3 so that the end of the shell rests on the plate portion I4 carried by a table I5 which is horizontally slide'able along tracks or ways I6. Suitable anti-friction bearingv members I1, preferably ball` bearings, are interposed between the tracks I6 and the table I5 so that the table is movable from a position somewhat remote from the support. I0, where thel shell can be readily applied to the holder, into the posiis in position for cooperation with the. gauginsr devices carried by the support. The work holder can be moved towards the left as viewed in4 Fig. 2, to move the work away from the support, by pulling the rod I8 carried by a pair of levers I9 which are secured at their lower ends to a control shaft 2I, journalled in the side walls of. the base. Fixed to the shaft 2I is a gear segment 2 2 which operates a gear 23 carried by shaft 24 which is also journalled in the side walls ofthe base II. The gear 23 is xed to a link 25 of a toggle linkage including an angular link 26, pivotally interconnected to link 25 at 21. The other end of the link 26 is pivoted at 28 to an ea!` 29 which is fixed to and projects down from the table I5. When the work holder is arranged in its operative or gauging position as indicated in Fig. 2, the pivot connection 21 between links 25 and 26 is almost in alignment with the shaft 24 and the pivot axis 28. By pulling the rod I8 towardsthe left asviewed in Fig. 2, the gear 23 is rotated clockwise, swinging the `link 25- clockwise about 180, and consequently pulling the -table If5 out of its gauging position and vinto the withdrawn position in which the shell can berreadlly in which the shell gear segment 22 the. SllPDOl't applied to or removed from the holder. The angular form of the link 26 is such that the three pivot points of the toggle linkage will be substantially in alignment, when the table has been moved out, the recessed part of the link 26 then being close to or in contact with the lower side of the shaft 24. With this arrangement it will be. clear that the motion of the table I5vis gradually decelerated at.. both ends of its movements either towards or from the support I0, the nnal movements of the table being very gradual, thus bringing the table to a determined position without shock or jar to any of the parts. The nal, position to which the table is brought, near A II),v is accurately determined by an adjustable screw 3|, held in any adjusted position by a lock nut 32 in the front wall of the base IiI, and contacting with a stop surface 33 on the to stop the clockwise movement of the levers I9 and stop the movement of the table I5 in the exact position desired, with the shell centered in position for proper engagement with the gauging devices on the support. The stop; screw 3l is preferablyso arranged that it contacts with the stop surface 33 just before the toggle linkage is fully straightened. A similar stop screw 34 and engagement with a, stop surface 35 on the gear segment 22 to limit the outer movement of the table I5y so that the link 26 will not be brought forcibly against the shaft 24.

The table I5 supports a plurality of gauging devices which gauge or compare radial and axial dimensions of the shell. One of these gauging devices includes a gauge head 38 (see Figs. 1, i and 8) secured on the table 'I5 and having a plunger or operating element 39 which is controlled by motion transmitting mechanism in accordance with the position of a work contacting nger 4I which is vertically movable and engageable withV an internal shoulder 42 of the shell I2. The finger 4I is fixed to and projects upwardly from a block 43 which is supported by spring blades 44 and 45 of equal length and arranged to onel another. The adjacent ends of these spring blades are fixed to a portion 4II formingpart of oriixed to the table I5. The block 43, in effect, is thus pivoted for small movements about an axis which substantially corresponds to the point of intersection of the spring blades 44 and 45. Thus the vertical movements of the finger 4| are transformed into equal horizontal movements of the portion of block 43 which contacts with the operating element 39 of the gauge head. Normally, before the work is applied, the finger 4I is held by the springblades 44 and 45- and by the operating element 39 slightly above the position to which the finger is depressed when.v the shell is applied to theplate I4, and when the work is in position the spring blades 44 and 45 are straight if the dimension gauged is of the required size. The gauge head 38 is of a suitable character preferably like the gauge head illustrated in Patent No. 2,254,812 granted September 2, 1941, and is connected electrically in a manner similar' to that disclosed in the mentioned patent lto suitable indicating means which enable the operator yto see whether or not the part gaugedr is of the required size. n

Mounted on the table I5 by means lof a pair of vertical parallelv spaced spring blades 48 is a block 49 adapted for limited substantially horizontal movement withrespect to the table. An upward extension 50 of the table (see Fig. l) is received in a recess slightly larger than the exlock nut 35 is provided for tension 5U and provided in block 49 to limit the horizontal travel of the latter. The block 49 is fixed to and supports a gauging device 5| similar to the gauging device 38 in its internal construction. It incorporates an operating element or plunger 52 (see Figs. 1 and 4) which is engaged and operated by a bar 53. The latter is mounted for limited substantially horizontal movement on the table I5 by means of a pair of spaced parallel spring blades 54. On this bar is fixed an up-' wardly extending arm 55 having a work contacting portion 56 which is engageable with the internal cylindrical surface adjacent the bottom of the shell as shown in Fig. 9. The arm 55 is thus carried for substantially horizontal yielding movement so as to position thek operating member 52 of the gauging device in accordance with the size of the internal cylindrical surface adjacent the bottom of the shell. 'I'he gauging device 5I is also yieldingly carried by its own supporting spring blades, and is xed to a second arm 51 having a work contacting portion 58 arranged diametricallyopposite the arm 55 and thus adapted to position the housing of the gauging device in a yielding manner, in accordance with the diameter of the surface gauged. The two arms 55 and 51 thus cooperate with the gauging device to give an accurate measurement or comparison with a part of standard size, it being understood that the gauging device is connected to and controls a suitable indicating mechanism in the same manner as described in Patent No. 2,254,812 previously mentioned.

The plate I4, which carries the shell, is provided With a plug 6B which enters the passage in .the lower end of the shell when the shell is applied to theplate, if the passage is sufficiently large. The plug may be formed as a part of the plate I4, the latter having recesses 6| arranged generally radially as shown in Fig. 5, to accommodate the upwardly extending arms 55 and 51 and the upwardly extending Work contacting'nger 4|. The upper portion of the plug 6B is of somewhat smaller diameter than the lower portion and serves as a go plug for entering the cylindrical internal surface 63 of the shell, if that surface is of suincient diameter. Below surface63 the shell is provided with internal threads 64, and the inside diameter of the threads is gauged by the lower portion of the plug 60, which is lof such a diameter that it will enter the threaded portion of the shell if the internal diameter of the threads is large eonugh. II" either the surface 63 of the shell or the internal diameter of the threads is too small, the shell will not pass over the plug 65 to rest on the plate I4, and the shell will therefore project up too high, and this will be determined, as will be presently described, by gauging means provided on the support I after the work is moved to gauging position.

. The plate I4 is also provided with a plug portion that enters the groove S5 at the end of the shell, to determine whether or not the internal diameter of the outer surface forming this groove is large enough. If this diameter is too small on the shell, the latter will not seat on the plate I4. The upper and lower go plug portions of the central plug and the upwardly extending go plug at the periphery of the plate I.4 thus check three internal diameters to determine if they are large enough. At the same time a diametrical measurement or comparison and an axial measurement or comparison is provided for by means of the gauging devices 38 and 5|. If the work is properly positioned on the plate I4, that is if the plug portions fully enter the shell, the measure ments or indications on thevindicating means will show whether or not the gauged portions of the work are of desired size and whether or not their dimension is too large or too small, as soon as the work is positioned on the holder and even before it is moved into gauging position for cooperation with additional gauging devices on the support.

When the shell is moved,by moving the holder back towards the support I0, to its gauging position, the shell is carried past a stop arm 68, xed on the support I0 and arranged to enter and pass through the groove 61 of the shell if the shell is properly seated on the plate I4. This arm 68, as shown in Figs. 1 and 5, is adjustably xed on the support by means of a slotted opening 69 in the arm and a bolt 1| which passes through the slot and which is threaded in the support II), to permit vertica1 adjustment of the arm. The arm extends downwardly and then projects out towards the front of the apparatus, as shown in Fig. 5, its projecting end having the stop surface 12 which is narrow enough in a vertical direction so that the groove 61 in the shell can receive the stop surface without contacting with it, as the shell is moved into gauging position, illustrated in Fig. 5. However if the shell is not properly seated on the upper surface of the plate I4 because one of the surfaces gauged by one of the plug portions is to small in diameter, then the wider portion of the shell below the groove 61 will contact with the stop 12, thus preventing the shell from being moved into gauging position.

The support I0 carries a gauging device 14 having an operating element 15 which bears against a lever 16 pivotally carried at 11 on a stationary block 18 `fixed to the support, shown in Fig. 2. An adjustable stop screw 19 threaded in a downwardly extending leg 8| -of the arm 15 limits the counter-clockwise movement of the arm, which is normally urged in this counterclockwise direction in a yielding manner by the internal mechanism of the gauging head. The lower side of the outer end yof the arm 18 provides a cam surface 82 which is engaged by the upper end of the shell when the shell is moved to gauging position. The upper end of the shell thus rides along the cam surface 82 and forces the lever 16 upwardly, or clockwise, to a degree determined by the total height of the shell, and if the shell is of the desired height, the indications produced by the gauging head 14 will so indicate, or 4will indicate whether or not the height is too much or too little. If the plug portions at the lower end of the shell when the latter is applied to the plate I4 do not permit the shell to seat properly on the plate I4 the arm 1S will be,moved upwardly, when the shell is moved to gauging position, and give an indication that the height of the shell is excessive.

When the shell is moved to gauging position,

the operator holds the shell down on the plate I4,

keeping it substantially upright, and the final position of this shell so far as its vertical attitude is concerned, is determined by a stop arm 83 which projects out from the support I0 into a position where it engages the rear of the shell between its upper and lower ends.

When the work holder is moved to gauging position, together with the shell properly in place, the external diameter of the shell just above the groove 61 is determined by work engaging fingers 85 and 86, which control a gauging device 81 mounted on the support I0. This gauging device 8l and the.` arm Sn which carries the work contacting portion'a is mounted as; a.- unitfcr limited horizontal movement' towards the right. and left asv viewed in Fig. l. by means of a pairA of. horizontally extending-parallel spring blades 89 connected. thereto and connected to the support, HI. The work contacting-portion 8B isl mounted on a second arm 9| which bears. against the operating element of the gauge head 81, this porti-on 86 being supported by a pair or parallel spring blades connected thereto and connected toY the. support and providingv for yielding limited movement in a horizontal direction. An accurate indication is thus obtained on the gauging device even itthe work is notA exactly centered with respect to the table. The manner in which the arms; B0: and 9| are supported, from the support i0 is generally similar to the arrangement described` in Patent No. 2,254,812 before: mentioned.

The external diameter at. the lower end of the shell is gauged. or compared'v by means of work contacting elements 93 and 94 which control the indications of the gauging devicev 95. The oper'- ating element 96 of this gaugingv device bears .against a block. S'l carried by spring: bladesv 00 which are fixed, at. one end and to the bar 99 and which mount the block 91 for limited horizontal movement. This block carries the work engaging portion 94. The bar Sii carries. thework engaging portion 93 which engages theopposite side of the work at av point diametrically opposite to portion 94.. The` bar 99- is carried by a' pair of parallel spring blades |01 so thatthe gauge head 95 is supported for yielding movementr to a lim ited extent, in a horizontal direction.

The diameter ofthe groove 0l (see Figs. 3 and 9) is measured or compared by a pair of work contacting members |03 and |04 which bear, at their inner ends, against the cylindrical surface forming the inside of the groove. The diameter of this cylindrical surface thus controls the radial relative spacingv of these members |03 and |04. Member |04 isV carried by the bar |05 which also forms a support for the gauging device |05. The latter is provided with an operating member |01 controlled by a block |08 which carries the work contacting member |03'. Block [08 is mounted by a pair of parallel spring blades |09 on the bar |05. The bar isv carried by a pair of parallel spring blades ||0 which project toward the. support I0 and Whichmount thev bar |05 and the gauging device |06 for limited horizontal move*- ment towardsl the. right and left as` viewed in Fig. 3. The rear ends of the spring blades H0 are secured to a carrier H2. As Willi now be under'- stood, the gauging device |063 properly indicates or compares thev diameter of the. external cylindrical surface at the groove 61 regardless of any slight mis-positioning of theV axis of the shell with respect to its intended centered position on the plate I4.

They Work engaging portions |03 and IM are not only mounted for movement in a horizontal plane for gauging a diametrical measurement of the shell, but are also adapted for vertical movement to gauge or compare. an axial dimension of the shell at the same time. As will be apparent from Fig. 9, the lower surfacesy of these work engaging portions |03 and |04 engage the lower side of the groove 61. movement. of these. work engaging. portions, the entire bar |05,` and the, gauging. device. |00 as well, are mounted for yielding vertical movement by means of another set of'parallel spring blades ||4. and ||5` (see Figs. 3, Sandi)- At one end',

To accommodate this. up. and down animano these: spring blades IM.- and. ||5 are secured to e stationary supporting block.' ||6l ony the. support I0, and at their outer: ends they are secured to the carrier ||2 to mount the carrierA for vertical limited movement. This carrier in turn supports the bar |05 by means of the spring blades ||0 as previously described. The carrier ||2 comprises a bar portion ||l1L having integral outwardly extending lugs H8 to whichv the ends of the springs H4 and H5 are secured,l these lugs H8 overhanging the upper and lower portions of the bar |05 as shown in Figs. 6 and 'l so that the bar |05 is mounted for both vertical and horizontal yieldingj movement, each movement in one direction being without effect so far as movement in the other direction isy concerned.

The up and down movement of the bar |05 in transferred to a. gauge head |20, by means o! the operating member |2| of the gauge head, this operating member extending with suitable clearance through a holeY provided in the arm and engaging a flat surface |23 on the arm |05.. The operating member |2| of this gauging device thus yieldingly maintains itself in contact with the surface |23, and as the ar'm |05 is; moved upwardly by the work, when the work is brought into engagement with the groove engaging p0rtions, the indicator of. the gauging device |20 shows whether or not they horizontally extending surface of the groove,` at the lower portion of the groove,v is the proper distance from the bottom of the shell. The horizontal movement of the arm |05 and the gauging device |06A which it carries: is without eiect. on the gauging device |20; and, similarLvT the up and down movement of the army |05, which operates theI gauging device |20, is without effectV on the indications produced by the gauging device |06.

The weight of the` gauging device |06, the arm i05, and the other associated parts mounted on the members mentioned is counterbalanced by a spring counterbalance structure generally designated' |25. This counterbalance comprises a spring |26 held in a casing IZT which is fixed to the support V| l0, the upper end of the spring bearing against a plunger |28 which bears against the lower side of the carrier ||2 with suilicient force to yieldingly hold the carrier I' |2 approximately in its normal position so as to relieve the bending stra-in that would otherwise. be applied to the spring blades |I0. The normal position of the carrier ||2, before the work is brought into engagement with the work contacting portions |03 and |04, is just silgthly below the position the carrier is moved to if the work is of a desired sizev so far as the location of the lower side of the groove 6-1' is concerned.

As previously indicated, the several4 gauging heads control electric circuits, each gauging head having an indicating light sov that the operator can determine whether any particular gauging head is properly indicating a` desired dimension or Whether the dimension gauged or compared is. oversize or undersize, in the same manner as inthe Patent No. 2,254,812, and if all the dimensions checked conform to a desired size. standard or predetermined tolerance. or tolerances, an indicator light |30 mounted on. the. support |0 shows the operator that all dimensions checked conform to the desired sizes. If the. indicator ISD/does not show all dimensions to be proper, the operator can then. refer to the individual in.- dicatng lamps associated with the incividivual gauge heads, to seey which measurements depart from a desired size, and whether the Work gauged thereby is too large or too small.

While some of the dimensions are gauged or compared with a part'of the desired dimensions as soon as the work is applied to the holder, and before the holder is moved into gauging position, the preferred manner of gauging or comparing a shell is for the operato-r to apply the shell on the holder, then swing the bar 8 upwardly to bring the holder and the shell into gauging position as exactly predetermined by previously setting the stop 3| which limits the travel of the gear segment 22. As the operator moves the bar upwardly, he holds the upper portionof the shell so that itis moved back and maintains a substantially vertical attitude on the holder. After bringing the holder back into gauging position, the operator then merely needs to look at the indicator light |30 which is conveniently positioned adjacent the work itself, to see whether that light indicates that all sizes checked conform to a desired size standard. If so he knows the work is properly made and that the shell conforms to the desired size standard at all the gauged or checked portions. If the indicator light |30 does not show all sizes to be proper, the operator can then refer to the individual indicating ligh-ts, individual to the several gauging devices, to see which measurement gauged departs from a desired size standard or if several dimensions do not conform to the desired size standard he can determine which ones are incorrect. It will be quite apparent, in view of the preceding discussion, that a large number of different measurements in both axial and diametrical directions can be obtained in one operation, and that the successive gauging of successive shells can be very expeditiously accomplished.

While the form of apparatus herein described constitutes a preferred embodiment of the invention, it is to be understood that the invention is not limited to this precise form of apparatus, and that changes may be made therein without departing from the scope of the invention which is dened in the appended claims.

What is claimed is:

l. Gauging apparatus comprising a work contacting member adapted for simultaneous contact with and operation by two adjoining surfaces of a workpiece at an angle of 90 to one another, gauging means responsive to movement of the member in one direction, a second gauge device responsive to movement of the member in the second direction at an anglel of 90 to the rst direction, and means mounting said member for movement in said directions.

2. Gauging apparatus comprising a work contacting member adapted to simultaneously contact with and be operated by two workpiece surfaces at an angle of 90 to one another, a gauging means responsive to movement of the member in one direction, a carrier mounting said member for movement in said one direction, a second gauging means responsive to movement of the member in a second direction at an angle of 90 to the rst said direction, a support, and a pair of parallel spring blades mounting said carrier on said support for movement in said second direction.

3. Gauging apparatus comprising a carrier, gauging means mounted on said carrier, said gauging means having a moving element operable in accordance with one dimension of a workpiece in one geometric plane, a support, means mounting said carrier on said support for movement in a direction transverse of said l of movement,

5 geometric plane, a gauge on said supportresponsive to the movement of the carrier on the support in said transverse direction, and a work contacting member Aadapted for simultaneous contact with and operation by two adjoining surfaces transverse of one another and controlling the position of said moving element in one direction and of said carrier in another direction.

4. Gauging apparatus comprising a pair of opposed Work contacting members adapted for cooperative simultaneous engagement with a. surface to be gauged, means supporting said members each for movement towards and from the other in a horizontal direction, gauging means carried by one of said members for gauging the relative horizontal positioning of said members,

means supporting said members for yieldingl movement in a vertical direction,- gauging means controlled in accordance-With the vertical position of said members, one of said members having a work operated portion controlling movement of such member in a vertical direction, and means for counterbalancing the weight of said work contacting members and said rst named gauging means. f

5` Gauging apparatus comprising a support, a work holder movably carried by ,said support, means for operating the holder to and from work gauging position, a carrier, means supporting the carrier on said support for movement in one direction, an operated member having a pair of work operated portions at relationship which are responsive to adjoining surfaces on the work,

means supporting said operated member on said carrier for movement in a second direction at an angle to the rst direction, gauging means responsive to the movement of said operated member in one direction under the control of one of the work operated portions, and gauging means responsive to a, Work dimension in the other direction under the control of the other work operated portion.

6. Gauging apparatus comprising a support, a work' holder movably carried by said support, means for operating the said holder to and from Work gauging position, a carrier, a set of flat parallel spring blades each connected at one end to the carrier and at the other end to the support and mounting Lsaid carrier for parallel movement in one direction, an operated member, a set of flat parallel spring blades each secured at one end to the carrier and at the other end to the operated member and supporting the operated member for parallel movement in a second direction transverse of said first direction, said operated member having a pair of adjoining work operated surfaces extending 90 from one another, and gauging means responsive to the position of said operated member.

'7. Gauging apparatus comprising a support,

an operated member, means for mounting said operated member for yielding movement on said support in substantially horizontal and vertical directions, said operated member having a plurality of work contacting portions effective in locating the operated member in its two directions gauging means carried by the operated member and responsive only to a work dimension in a substantially horizontal direction, gauging means carried by the support and responsive to movement of the operated member in the substantially vertical direction, andmeans for yieldingly counterbalancing the weight of said operated member and the gauging means carried thereby.

6 i I annum tally extending portion locating the operated member in a vertical plane, Vgauging means carried by the operated member and responsive only to a horizontal dimension' of the Work, gauging means carried by the support and responsive to movement of the operated member in a vertical plane, and means for yieldlngly urging said carrier upwardly +'o substantially counterbalance the weight of the carrier and the parts carried l0 thereby.

' WILLIS FAY ALLER.

noms J. MAHLMEIS'I'ER. 

